Flexible kite

ABSTRACT

The structure of certain kites which can also be used for sailing may be made out of fiberglass rods on which we tie the bridles. These rods are on the leading edge and in the middle of the sail. The present structure uses these rods but only on the leading edge. This permits to simplify the use and the construction and to increase the resistance to impacts, the structure being more flexible.

SUMMARY

[0001] The structure of certain kites which can also be used for sailing may be made out of fiberglass rods on which we tie the bridles. These rods are on the leading edge and in the middle of the sail. The present structure uses these rods but only on the leading edge. This permits to simplify the use and the construction and to increase the resistance to impacts, the structure being more flexible.

DESCRIPTION

[0002] The present innovation relates to a kite for kitesailing which we can also call a power kite or a traction kite. We can also use it as a toy kite.

[0003] That type of kite may be made out of flexible fiberglass rod on which we tie the bridles. There is a rod on the leading edge and others in the middle which are fixed to the leading edge with special joints. These last ones can brake with the impacts because their orientation faces the direction of the movement like arrows and that type of kite has four lines to guide it.

[0004] I found a way to make a very powerful and manoeuverable kite who has a rod only on its leading edge. That simplifies the construction and improves the resistance to impacts cause the rod acts like a very flexible ring, and not like an arrow, during the impacts. Moreover because this structure is very compact I reduced the number of lines to only three which gave me the opportunity to develop more easily a system that shortens the lines to get closer to the sail to reduce its power when the wind is stronger. The closer to the sail you get the less powerfull it is, you don't have to change for a smaller sail. Due to it's compact spoon shape that kite takes off more easily when it hits the ground rolling on itself.

[0005] To make that kite work properly you have to miniminise the deformations on the leading edge while keeping it as flexible as possible. As it is very compact, you can group most of the bridles to only one point near the sail and tie them to only one main line instead of two, minimising the deformations and the number of lines. To make it turn you have to activate the last bridles on each side, up to about 25% of all the bridles. I thereford tied the three last bridles on each side to two secondary lines which gave me a good functionning and an interesting secondary effect: the action of loosening the two secondary lines together makes the sail go upwind untill the power is reduced to zero without loosing the control. But you could also use only the last bridle to turn the kite.

[0006] Then I tied these three lines to a control handle, the main line in the center and the secondary lines at the ends. One handle instead of two permits to roll the lines simultaneously on one of its end up to other anchrage devices on them nearer the sail. You just have to tie these anchrage to the handle and go. Getting closer to the kite reduces its power considerably and therefore avoids the cost of a smaller sail.

[0007] But something else occurs when you get closer to the sail, you can tie the anchrages to the handle a completely different way: you tie the two secondary lines together on one end and the main line to the other. That permits to soften and to simplify the handling: to turn the sail you only have to turn the handle the same way, like a car steering instead of pulling right and left like a horse. It activates automatically the secondary lines and is more instinctive. The learning is almost instantaneous. The direction of the handle gives the position of the sail in the air so that you don't have to see the sail to know its position in the air. You can more easely concentrate on the field. You can also activate the secondary lines directly by pulling on the front or on the back of the handle.

[0008] Another element can help to lower the production cost without cutting considerably the performance: the use of woven polyethylene. Though it is heavier the resulting weight is not prohibitive for a winter use on snow.

[0009] Also, due to its flying shape and because it is not very elongated, you can tie two or three sails together for more power.

DRAWINGS

[0010] Relative to the drawings that illustrate the realisation of the invention.

[0011] Drawing 1 represents the kite with short lines.

[0012] Drawing 2 represents the kite with long lines.

[0013] Drawing 3 represents the kite opened on the ground.

[0014] The illustrated kite has a fabric 1 and a leading edge 2 which forms a half-circle where the bridles 3-4 are tied entirely on the leading edge. In operation with long lines 5, you activate the handle 6 to pull on either secondary lines 7 to control it without activating the main line 8. Anchrages 9 fixed to the lines permits to shorten them to operate closer. Then you only need to turn the handle to turn the kite. 

1. A kite that has a flexible rod, bridles, lines, a specific system to operate with short lines, a specific shape.
 2. A kite having a flexible fiberglass rod only on the leading edge.
 3. A kite having 75% and more of the bridles grouped in one point near it and tied to only one main line and the rest of the bridles tied to two secondary lines.
 4. A kite having a control handle that we turn instead of pull to operate with short lines. 